With a commitment to excellence and a passion for advancing technology, the Electrical & Computer Engineering department at ¹ú²úÂ×Àí houses several state-of-the-art facilities that cater to diverse interests and specialties. Whether you are fascinated by robotics, telecommunications, microelectronics, or any other exciting aspect of electrical and computer engineering, our laboratories and centers provide an immersive and collaborative environment where students, faculty, and researchers come together to shape the future of this ever-evolving field. Join us on an inspiring journey of exploration, discovery, and transformation in one of the nation's most renowned ECE departments.
In summer 2007, the college of engineering at ¹ú²úÂ×Àí (¹ú²úÂ×Àí) established the Medical Imaging, Diagnosis and Analysis (MIDA) laboratory bringing together established and new faculty with medical focus areas.
The Vision Lab aims to develop novel theory, state-of-art algorithms, and architectures for learning and real-time applications in human and machine-centered interaction and recognition; biomedical imaging and signal analysis; and environmental and geoscience applications based on the disciplines of computer vision, signal/image processing and AI/machine learning.
The Frank Reidy Research Center for Bioelectrics strives to increase scientific knowledge of how intense, pulsed electromagnetic fields and cold ionized gases interact with biological systems.
The Virginia Institute of Photovoltaics (VIPV) exemplifies ¹ú²úÂ×Àí's leadership role in the field of solar energy research. The scope of its mission extends from the basics of the fundamental science of the materials and devices, through the fabrication processes and balance of systems, all the way to the knowledge and understanding of PV systems and complementary environmental policy and PV business development.
In summer 2007, the college of engineering at ¹ú²úÂ×Àí (¹ú²úÂ×Àí) established the Medical Imaging, Diagnosis and Analysis (MIDA) laboratory bringing together established and new faculty with medical focus areas.
The Vision Lab aims to develop novel theory, state-of-art algorithms, and architectures for learning and real-time applications in human and machine-centered interaction and recognition; biomedical imaging and signal analysis; and environmental and geoscience applications based on the disciplines of computer vision, signal/image processing and AI/machine learning.
The Frank Reidy Research Center for Bioelectrics strives to increase scientific knowledge of how intense, pulsed electromagnetic fields and cold ionized gases interact with biological systems.
The Virginia Institute of Photovoltaics (VIPV) exemplifies ¹ú²úÂ×Àí's leadership role in the field of solar energy research. The scope of its mission extends from the basics of the fundamental science of the materials and devices, through the fabrication processes and balance of systems, all the way to the knowledge and understanding of PV systems and complementary environmental policy and PV business development.
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